Keysight U4164A Logic Analyzer Module

Ihr Spezialist für Mess- und Prüfgeräte Keysight U4164A Logic Analyzer Module with Options up to 4 Gb/s State Mode and 10 GHz Timing Mode Data Sheet datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Table of Contents Product Description... 3 Dual-Sample State Mode... 7 Quad-Sample State Mode... 7 State Mode Clock Inputs and Clock Qualifiers... 8 Timing Zoom... 9 Deep Trace Captures... 10 DDR Measurements Made Fast, Easy, and Powerful... 11 Burst Trigger and Trigger Macros... 12 Signal Integrity Insight Made Fast and Easy... 13 Harness your Logic Analyzer and Scope for Powerful Insight... 15 Programmability... 15 Operating Modes... 16 Optional Hardware... 17 Optional Software... 17 Probe/Cables As Required to Connect to the Target System... 20 U4164A State Speed Option Requirements for DDR/LPDDR Data Rates... 22 U4164A Includes... 22 U4164A Requires... 22 Minimal Hardware... 23 Typical Configurations... 24 Related Products... 25 Technical Specifications and Characteristics... 26 Environmental and Physical... 29 Ordering... 30 Warranty and Calibration... 32 2 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Product Description The Keysight Technologies, Inc. U4164A logic analyzer system combines reliable data capture with powerful analysis and validation tools to enable you to quickly and confidently validate and debug high-speed digital designs operating at speeds up to 4 Gb/s. The U4164A logic analyzer module delivers the following unique capabilities that enable you to make measurements and achieve levels of insight unavailable with other logic analyzers: Quad sample state mode provides four samples with two different threshold settings from a single-touch connection to high-speed data signals under test 1 Dual sample, dual threshold state mode Clock hysteresis allows the user to define a hysteresis range about the clock threshold 10 GHz ¼ channel conventional and transitional timing mode 2 Software tool for timing de-skew 400 Mb (sample) memory depth option Four speed options corresponding to the state clock rate, data rate, and timing mode sample rates Applications Functional validation of memory systems and other high-speed digital systems operating up to 4 Gb/s Debug of hardware and software in high-speed digital systems operating up to 4 Gb/s Qualitative bus level signal integrity insight using eye scan or DDR eye scan Features State capture up to 4 Gb/s on 68 channels, 2.5 Gb/s on 136 channels per module Reliable data capture on eye openings as small as 100 ps by 100 mv 12.5 GHz timing zoom with 256 K sample memory Memory depth up to 400 M samples Wide variety of probing solutions including BGA, interposer, mid-bus, and flying leads Up to 10,880 channels in a system using Multiframe User values Confidence in state measurements with signal eye openings as small as 100 ps by 100 mv Rapidly view signal integrity information in a matter of minutes on all the buses in your design under a wide variety of operating conditions Quickly and easily set up complex DDR and LPDDR measurements 350 MHz, 700 MHz, 1.4 GHz, and 2.5 GHz state speed options: Purchase the level of state speed capture capability you need now and upgrade as your state speed needs increase. The U4164A with the 2.5 GHz state speed option allows you to capture the highest speeds (up to 4 Gb/s) for DDR/LPDDR memory systems Dual-sample state mode: set separate sample positions and thresholds for DDR/LPDDR read/write captures for data rates less than 2500 Mb/s from one probe point Quad-sample state mode: set separate sample positions and thresholds for DDR/LPDDR read/write and rising/falling edge captures for data rates greater than 2500 Mb/s from one probe point Clock hysteresis: avoid false sampling on noisy clock inputs when differential clocks turn off 10 GHz quarter channel conventional and transitional timing mode: Identify timing problems in deep traces with high sample resolution 400 Mb (sample) memory depth option: Capture more system activity so you can debug complex problems when the symptom and root cause are widely separated in time 1. Available in Option -02G 2. Available in Options -01G and -02G 3 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Product Description (Continued) Beyond being a powerful general purpose logic analysis system, the U4164A system includes specific tools and features to enable powerful debug, validation and analysis of DDR and LPDDR memory systems. Figure 1A shows the Read DQ and DQS eyes associated with byte lane 0 on a DDR4 system operating at 3300 Mb/s data rate. This screen shot is captured in signal trace mode with no back-to-back bursts so that the eyes for the entire burst of eight are displayed. The trace was captured using the FS2510AB DDR4 DIMM interposer providing double probe points of each DDR4 DQ with the logic analyzer module in dual-sample state mode. The U4164A logic analyzer uses its unique eye scan capability to automatically place the sampling point in both time and voltage within the eye on each individual channel for optimal sampling reliability. Figure 1A. DDR4 3300 Mb/s read DQ bursts for bits D2 D7 and DQS0. 4 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Product Description (Continued) Figure 1B shows the trigger setup to capture a burst of eight DDR4 writes using the unique Keysight burst trigger that captures precise sequences of two to eight patterns per burst recognizer. (The U4164A has up to eight burst detectors.) The trigger sequencer operates up to 2.5 GHz, enabling accurate and precise triggering on DDR4 read or write bursts of DQ up to 4 Gb/s with each DQ sampled simultaneously for both a rising edge and falling edge sample. Notice that the exact write DQ burst in the trigger is at the trigger point in both the waveform and listing displays. The trigger marker is red and is found at the last sample in the DDR4 write burst. The green marker is for the start of the write burst and the yellow marker in the listing is at the write command where the B4661A DDR4 decoder has assembled the DQ with the write command and associated row and column addresses. Figure 1B. DDR4 3300 Mb/s burst trigger for specific write DQ burst. Figure 1C shows the state listing and Figure 1D shows the waveform for this capture using the B4661A DDR decoder. Figure 1E shows the transaction decode option and traffic overview of the DDR4 3300 Mb/s trace using the B4661A performance analysis software. Figure 1C. DDR4 3300 Mb/s listing. 5 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Product Description (Continued) Figure 1D. DDR4 3300 Mb/s state waveform. Figure 1E. DDR4 3300 Mb/s state waveform. There are two methods to capture DDR or LPDDR memory DQ (data) transactions over 2500 Mb/s using the U4164A logic analyzer system: 1. Using quad-sample state mode, the U4164A is sampled on one clock edge, a single probe load is placed on each DQ, and quad-sample mode is used to provide separate read rising, read falling, write rising, and write falling edge captures with sample positions set independently. Read and write thresholds can be set independently. Read rising, read falling, write rising, and write falling edge captures are given different labels in the configuration so that the sample positions can be set independently. 2. Using dual-sample state mode, the U4164A is sampled on one clock edge, double probing of each DQ must be performed and provide separate read DQ and write DQ samples, and dual-sample mode is used to provide a rising and falling edge sample for each DQ, resulting in four samples taken for each DQ signal from two probe loads. Read rising, read falling, write rising, and write falling edge captures are given different labels so the sample positions can be set independently. 6 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Dual-Sample State Mode Dual-sample mode has multiple benefits: 1. For non-ddr or LPDDR memory trace capture, dual-sample state mode allows acquisition of state (synchronous) data at rates up to 4 Gb/s depending on the speed state option purchased. When used in this mode, the data will appear in two labels. One label for rising edge and another for falling edge captures. The logic analyzer will be clocked with one edge of the system clock. Labels can be merged using the Keysight B4602A signal extractor tool. When operated in dual-sample state mode on all pods, the channel count is 68 channels for one U4164A 136 channels for two U4164As, or 204 channels for three U4164A modules combined. Dual-sample state mode can be selected on a per-pod-pair basis, so if you have only a subset of signals that require dual-sample mode, the channel count can be higher. 2. For DDR/LPDDR memory signals up to 2.5 Gb/s, dual-sample state mode allows separation of read data samples from write data samples. The B4661A DDR2/3/4 decoder or the B4661A LPDDR/2/3/4 decoder reassembles the data to align with the associated commands. (There s no need for the B4602A tool for DDR and LPDDR solutions.) 3. For DDR4 and LPDDR4 memory solutions over 2.5 Gb/s using dual-sample state mode, double probing is required to capture read and write DQ signals and dual-sample state mode is used to capture rising and falling edge DQ samples. Using this technique, a maximum of 34 DDR4 or LPDDR4 DQ signals operating over 2.5 Gb/s can be captured per U4164A module. Address, command, and control signals for DDR or LPDDR memory do not require double probing above or below 2.5 Gb/s data rates, so modules with a mixture of address, command and DQ signals may have higher signal count depending on how the signals are routed into the U4164A. Quad-Sample State Mode Quad-sample state mode enables four samples with two different threshold settings from a single-touch connection to high-speed data signals under test. This results in four unique sample positions at two unique thresholds. Single-touch connection preserves probe routing space and minimized probe load on high-speed digital systems. DDR4 and LPDDR4 probing for data rates over 2.5 Gb/s are examples of where single-touch probing enables high-speed trace capture using quad-sample mode to capture read and write DQ (data) at different thresholds with rising and falling edge samples for both read and write data to sample, trigger, and display DDR4 and LPDDR4 at data rates up to 4 Gb/s. When operated in quad-sample state mode on all pods, the channel count is 34 channels for one U4164A, 68 channels for two U4164As, or 102 channels for three U4164A modules combined. Quad-sample state mode is only available with U4164A Option -02G. Quad-sample state mode can be selected on a per-pod-pair basis, so if you have only a subset of signals that require quad-sample mode, the channel count can be higher. 7 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

State Mode Clock Inputs and Clock Qualifiers State mode support for bursty clock inputs allows you to take measurements that include periods of in activity on the clock, such as power management transitions when the clock is inactive. In state mode, the U4164A allows one clock input into pod 1 of the clocking module. Double module set - bottom module of set is clocking module Three card set - middle module is clocking module There are five clock qualifiers available on the clocking module. The clock inputs to pods 2, 3, 4, and 5 can be used as AND or OR clock qualifiers. The RESET clock qualifier input on pod 7 is available as an AND input only when the other clock qualifiers are setup as OR inputs. The most common use mode for this clock qualifier is to capture RESET when the other clock qualifiers are looking for clock enable (CKE) signals on DDR and LPDDR buses. Clock hysteresis The U4164A module has a unique clock hysteresis feature that allows the user to define a range about the clock threshold. Using clock hysteresis enables the U4164A clock input in state mode to avoid false sampling on noisy clock inputs that may float to zero volts at the differential clock input to the U4164A when the clock is turned off. Clock hysteresis improves state mode captures from systems where a differential clock input turns off and floats to zero volts. Clock hysteresis control is inside the threshold dialog for the clock. The hysteresis on check box [x] is an on/off control. There is also an input for the amount of hysteresis setting in millivolts around threshold between 0 and 1 volts. Figure 2. Clock hysteresis selection and setting in clock thresholds window. The settings shown were used to capture an LPDDR4 system initializing without the use of any clock qualifiers. 8 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Timing Zoom The 12.5 GHz timing zoom with 256 K sample memory gives you simultaneous state and highresolution timing measurements covering a time span of 20 us, which corresponds to 43680 clock cycles at a 2133 MHz clock rate. Timing zoom also provides simultaneous high-resolution timing measurements with conventional and transitional timing modes of operation. Figure 3. Timing zoom can be used to measure the time between the rising edge of the clock and the rising edge of DQS in a DDR system. 9 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Deep Trace Captures Using memory depth options, transitional timing and state mode store qualification triggers Available memory depth of up to 400 M samples allows you to debug very complex problems where the cause and symptoms may be separated by several seconds. The amount of memory can be upgraded after purchase; see Upgrades in Ordering Information section of this document. No need to sacrifice sampling resolution to view more system activity. In timing mode, if your system has bursts of activity followed by times with little activity, you can use transitional timing along with the logic analyzer s deep memory to capture seconds to minutes of activity at 400 ps (2.5 GHz), 200 ps (5 GHz), or 100 ps (10 GHz) sampling resolutions. You also have the flexibility to increase the amount of time captured by excluding certain buses or signals from the transition detector, for example clock or strobe signals, that add little useful information to a state mode measurement. In state mode, use store qualification to save only states of interest into memory. Figure 4 shows a store qualification trigger for state mode that stores only valid mode register settings for DDR memories, allowing deep capture of only the MRS commands. The MRS command is a favorite trigger that can be recalled from any Keysight default probing configuration for DDR memory. Other favorite store qualification triggers include Filter NOP, trigger on first valid command, which is where the valid commands and enough samples to capture the DQ bursts for DDR memory transactions are stored and Deselected or NOP states are not stored, conserving logic analyzer memory depth. Figure 4. Mode register trigger allows you to capture key events during initialization without wasting valuable memory. 10 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

DDR Measurements Made Fast, Easy, and Powerful The DDR setup assistant simplifies measurement setup and minimizes the time to make your first measurement. The DDR setup tool guides you through even the most complex state mode DDR/LPDDR setup in minutes. DDR eye scan makes it easy to determine the optimum acquisition sample point without requiring an oscilloscope. Keysight-qualified scans place the sample position at the center of the eye on every individual channel for maximum data capture reliability, including separate sampling positions for read and write data. The DDR setup assistant includes a variety of powerful, time-saving trigger features optimized for DDR measurements. The DDR setup assistant tool is available at no charge as part of the Keysight B4661A memory analysis software package that can be downloaded. Figure 5. DDR setup assistant, with 10 simple steps, simplifies the setup of state mode measurements. 11 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Burst Trigger and Trigger Macros Burst trigger captures an entire data burst of eight on DDR or LPDDR memory systems from one sequence level in the trigger menu. Burst trigger is used in state mode. Up to four backto-back bursts of eight sequential patterns can be captured. This enables capture of up to 32 sequential patterns at up to 4 Gb/s data rates from any high-speed digital system. Intuitive trigger macros with diagrams provide visualization of triggering options and simplify the process of creating triggers. Figure 6. Burse recognizer trigger makes it easy to trigger on events in a burst read or write. 12 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Signal Integrity Insight Made Fast and Easy As timing and voltage margins continue to shrink, confidence in signal integrity becomes an increasingly vital requirement in the design validation process. Eye scan lets you acquire qualitative signal integrity information in a matter of minutes on all the buses in your design under a wide variety of operating conditions. Identify problem signals quickly for further investigation with an oscilloscope. Results can be viewed for each individual signal or as a composite of multiple signals or buses. The ability to qualify scans of any signal from any combination of other signals, full triggering capabilities for scan qualification, and customizable viewing windows allow you to sample only when the qualifying signal is active and see specific system activity of interest. Eye scan technology in the U4154B provides insights that can t be achieved as easily with any other test method. DDR eye scan automatically groups signals so you can quickly spot byte lane related signal integrity problems. Scans can be qualified based on state trigger criteria, providing unique insight. For example, read and write scans can be separated. Signal trace mode scan allows you to gather signal integrity information on two read or write cycles separated by only one cycle. DDR eye scan is available at no charge as part of the Keysight B4661A memory analysis software package that can be downloaded. Figure 7 shows a scan using signal trace mode where the samples in a DDR/LPDDR data burst are displayed in sequence. Figure 8 shows DDR3 DQ (data bits) scanned in overlay mode where the samples in the burst are scanned so that they overlay. Overlay mode provides the worst case eye, which allows for the most accurate sample position for the state mode sample positions. Figure 7. Burst qualified eye scan allows you to view the activity on the signals only when a burst is taking place. The screenshot above shows DDR4 2400 Mb/s read DQS 0-3 scanned in signal trace mode with no back-to-back bursts, allowing the user to view the DDR4 read strobes relative to each other, including the strobe pre-embles. 13 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Signal Integrity Insight Made Fast and Easy (Continued) Figure 8. Eye scan clearly indicates the DDR3 byte lane shift caused by fly-by routing. 14 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Harness your Logic Analyzer and Scope for Powerful Insight Combine the powerful triggering and protocol analysis of a logic analyzer with the signal integrity insight of a scope to solve tough design problems. Keysight View Scope allows you to easily make time-correlated measurements between Keysight logic analyzers and oscilloscopes. The time-correlated logic analyzer and oscilloscope waveforms are integrated into a single logic analyzer waveform display for easy viewing and analysis. You can also trigger the oscilloscope from the logic analyzer (or vice versa), and automatically de-skew the two instruments. View Scope enables you to perform the following tasks more easily, quickly, and effectively: Validate signal integrity Track down problems caused by signal integrity Validate correct operation of A/D and D/A converters Validate correct logical and timing relationships between the analog and digital portions of a design Figure 9. DQS0, DQ6 and CK0 from a DDR4 system probed by an Infiniium scope and displayed in the logic analyzer waveform using View Scope. Programmability You can write programs to control the logic analyzer application from remote computers on the local area network using COM. The COM automation server is part of the logic analyzer application. This software allows you to write programs to control loading, running, and storing configurations on the logic analyzer. 15 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Operating Modes 1 State operating modes Maximum acquisition rate Number of available channels in one module Number of available channels in a two module set Number of available channels in a three module set Conventional state sampling on both edges of the clock (synchronous) Dual sample state sampling on one clock edge and using dual sample mode to capture rising and falling edge samples (synchronous) Option Option Option 350 MHz Option Option Option 350 MHz -02G -01G -700 (standard) -02G -01G -700 (standard) 2.5 Gb/s 2.5 Gb/s 1.4 Mb/s 700 Mb/s 4 Gb/s 2.8 Gb/s 1.4 Gb/s 700 Mb/s 4 Gb/s 136 136 136 136 68 68 68 68 34 272 272 272 272 136 136 136 136 68 408 408 408 408 204 204 204 204 102 Quad sample state sampling on one clock edge and using quad sample mode to capture rising and falling edge samples of both read and write DQ (data bits) on DDR4 or LPDDR4 (synchronous) Option -02G Timing operating modes Conventional or transitional timing Full channel Half channel Quarter channel All channels Option -02G / -01G Maximum acquisition rate 2.5 GHz 5 GHz 10 GHz 12.5 GHz Number of available channels in one module 136 68 34 136 Number of available channels in a two module set 272 136 68 272 Number of available channels in a three module set 408 204 102 408 Memory depth (samples) State modes (synchronous) Conventional and transitional timing modes (asynchronous) Timing zoom Conventional and dual-sample (all Full channel Half channel Quarter channel All options state speed options); Quad-sample (requires Option 01G or 02G) (available with Option 02G only) Standard (base) memory 2 M 2 M 4 M 8 M 256 K U4164A-004 4 M 4 M 8 M 16 M 256 K U4164A-008 8 M 8 M 16 M 32 M 256 K U4164A-016 16 M 16 M 32 M 64 M 256 K U4164A-032 32 M 32 M 64 M 128 M 256 K U4164A-064 64 M 64 M 128 M 200 M 256 K U4164A-128 128 M 128 M 200 M 400 M 256 K U4164A-200 200 M 200 M 400 M 800 M 256 K U4164A-400 400 M 400 M 800 M 1.6 G 256 K Contact Keysight Technologies for information on additional configurations. Note: Memory can be upgraded after purchase. See Upgrades in Ordering Information. 1. Defined for general purpose use models. For DDR/LPDDR memory applications, either dual-sample or quad-sample modes are used for read/write separation. Quad-sample mode is used to capture rising and falling edge samples of both read and write DDR/LPDDR DQ signals for data rates up to 4 Gb/s from a single probe point. Dual-sample mode is used to capture read and write data instead of higher data rates. Using dual sample mode instead of quad sample mode requires, double probing of DDR/LPDDR data (DQ) to capture data rates over 2.5 Gb/s. 16 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Optional Hardware When you need more channels or more functions Multiframe allows you to combine 16 AXIe chassis. 1 One or more Y1223A Multiframe cables to connect multiple frames. Order one fewer Y1223A cables than the total number of frames/chassis to be combined. 1. One PC host is recommended for each AXIe chassis. Optional Software B4661A memory analysis software The Keysight B4661A memory analysis software offers a suite of tools that include the industry s first protocol compliance violation testing capability across speed changes, a condensed traffic overview for rapid navigation to areas of interest in the logic analyzer trace, powerful performance analysis graphics, and DDR and LPDDR decoders. With the B4661A memory analysis software and a Keysight logic analyzer, users can monitor DDR3/4 or LPDDR2/3/4 systems to debug, improve performance, and validate protocol compliance. Powerful traffic overviews, multiple viewing choices, and real-time compliance violation triggering help identify elusive DDR/LPDDR system violations. The Keysight B4661A memory analysis software provides four standard software features and four licensed memory analysis options. B4661A standard software features Default configurations for DDR and LPDDR probing solutions for Keysight logic analyzers DDR setup assistant DDR eye finder/eye scan DDR configuration creator B4661A licensed software options DDR decoder with physical address trigger tool (B4661A-1xx) LPDDR decoder (B4661A-2xx) DDR and LPDDR compliance violation analysis (B4661A-3xx) Post-process compliance violation analysis real-time compliance violation analysis DDR3/4 and LPDDR2/3/4 performance analysis (B4661A-4xx) 17 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Optional Software (Continued) Figure 10. Traffic overview example: Graphing command activity by commands and banks across the captured trace from the Keysight logic analyzer. Figure 11. Transaction decode in the performance analysis option, provides a high-level view that is time-correlated to the listing window where each state is viewed using the DDR bus decoder. (The transaction decode also includes a details window to see the data associated with each read or write transaction.) 18 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Optional Software (Continued) Figure 12. The post-process compliance tool includes hyperlinks to quickly jump to and/or mark violations and worst-case violations in the logic analyzer traces, transaction overview, and listing windows. 19 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Probe/Cables As Required to Connect to the Target System Direct connect probes Probes that connect directly between a connector or footprint on the device under test and the front panel connector of the logic analyzer. Probe type Connectorless, Soft Touch Pro Connectorless, Soft Touch Pro Model number Channels Maximum data rate Supported signal types U4206A 34 4 Gb/s Single-ended data, Differential or single-ended clock U4204A 34 4 Gb/s Differential or single-ended data, Differential or single-ended clock Flying lead U4203A 34 1.5 Gb/s Single-ended data, Differential or single-ended clock Mictor U4205A 34 600 Mb/s Single-ended data, Single-ended clock Comments Compatible with the U4164A only. Requires one U4206A per U4164A module. Use only for U4164A quad-sample state or quarter channel timing modes. Refer to U4206A user guide for example that allows for mixed modes of operation (e.g. quad-sample is selectable by pod pair) Model number Description Maximum data rate Comments U4208A Probe/cable, 61-pin ZIF, left wing, no RC, 160-pin direct connect to U4164A 3.2 Gb/s typical Compatible with the U4164A only. For use with W4631A or W4636A DDR4 BGA interposers that include RC network to provide proper signal termination to the logic analyzer. Uses quad-sample state mode to capture DQ signals. U4209A Probe/cable, 61-pin ZIF, right wing, no RC, 160-pin direct connect to U4164A 3.2 Gb/s typical Compatible with the U4164A only. For use with W4631A or W4636A DDR4 BGA interposers. Includes RC network to provide proper signal termination to the logic analyzer. Uses quad-sample state mode to capture DQ signals. 20 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Probe/Cables As Required to Connect to the Target System (Continued) General purpose probes as required to connect to the target system. (Probes in this chart require U4201A cables.) Probe type Model number Channels Maximum data rate Supported signal types Soft Touch Connectorless Pro Series E5406A 34 (32 data, 2 clock) 4 Gb/s Single-ended data, differential or single-ended clock Soft Touch Connectorless E5402A 34 (32 data, 2 clock) 4 Gb/s Single-ended data, differential or Low Profile single-ended clock Soft Touch Connectorless E5390A 34 (32 data, 2 clock) 4 Gb/s Single-ended data, differential or Classic single-ended clock Soft Touch Connectorless E5398A 17 (16 data, 1 clock) 4 Gb/s Single-ended data, differential or Half-size single-ended clock Soft Touch Connectorless Pro E5405B 17 (16 data, 1 clock) 4 Gb/s Differential or single-ended data, Series differential or single-ended clock Samtec connector E5378A 34 (32 data, 2 clock) 1.5 Gb/s Single-ended data, differential or single-ended clock Samtec connector E5379A 17 (16 data, 1 clock) 1.5 Gb/s Differential or single-ended data, differential or single-ended clock Mictor connector E5380B 34 (32 data, 2 clock) 600 Mb/s Single-ended data, differential or single-ended clock General purpose flying leads E5382B 17 (16 data, 1 clock) 1.5 Gb/s Single-ended data, differential or single-ended clock General purpose flying leads E5381B 17 (16 data, 1 clock) 1.5 Gb/s Differential or single-ended data, differential or single-ended clock Number of U4201A required per probe 1 for each E5406A 1 for each E5402A 1 for each E5390A 1 for every E5398A 1 for every 2 E5405B 1 for each E5378A 1 for every 2 E5379A 1 for each E5380B 1 for every 2 E5382B 1 for every 2 E5381B Recommended probes for DDR and LPDDR memory include BGA probes, interposers, and Soft Touch mid-bus probes. Interposers are available from FuturePlus Systems or through Keysight. Refer to Ordering Information. 21 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

U4164A State Speed Option Requirements for DDR/LPDDR Data Rates U4164A Requires Chassis and host PC Cables and/or probing to connect to the DUT Version 6.20 or higher of the logic and protocol analyzer software Host PC running compatible 64-bit OS (refer to logic and protocol analyzer software download site for latest supported operating systems) U4164A Includes Qty (1) U4164A logic analyzer module Qty (2) U4154-61602 flex cables for connecting multiple U4164A modules into module sets For capture of DDR/LPDDR memory ADD/CMD/DATA DDR/LPDDR data rates Base state clock rate: 350 MHz clock 1 Option 700: 700 MHz clock 1 Option 01G: Option 02G: 1.4 GHz clock 1 2.5 GHz clock 2 DDR or LPDDR 700 Mb/s DDR2 700 Mb/s DDR3 1400 Mb/s 2500 Mb/s > 2500 Mb/s DDR4 2500 Mb/s > 2500 Mb/s LPDDR2 1400 Mb/s LPDDR3 1400 Mb/s 2500 Mb/s LPDDR4 2500 Mb/s > 2500 Mb/s 1. Requires dual sample state mode for simultaneous read/write data capture. 2. Requires dual sample state or quad sample mode for simultaneous read/write data capture. Dual sample state mode requires double probing of DQ over 2.5 Gb/s. Quad-sample state mode operates from a single probe load. 22 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Minimum Hardware Module quantity considerations The following table provides examples of general guidelines for the number of U4164A modules required for a few example applications. Refer to the requirements of your specific devices, interposers and probes to determine the requirements for your application. DUT configuration General purpose measurement requiring a given number of channels on a single time base DDR4 DIMM Interposer, > 2.5 Gb/s data rates, capture all ADD/CMD/data DDR2/3/4, 64-bit data, 2.5 Gb/s data rates, capture all ADD/CMD/data (read and write) LPDDR1/2/3/4, 2.5 Gb/s data rates LPDDR4, > 2.5 Gb/s data rates U4164A module requirements Each U4164A has 136 channels. A maximum of three U4164As can be combined for 408 channels Three U4164A modules, each with Option 02G Two U4164A modules, each with Option 01G One U4164A module May require up to three U4164A modules (depends on the number of data signals probed and the probing layout) 1 1. To determine the number of channels, and therefore the number of modules, required for a DDR/LPDDR memory system operating at > 2.5 Gb/s, allocate four U4164A channels for each DDR/LPDDR memory DQ captured. Chassis and controller considerations Y1200B: x1 to x8 PCIe cables Y1202A: x8 PCIe cables M9536A embedded AXIe controller M9045B PCIe ExpressCard M9048B PCIe adapter Figure 13. Laptop PC Desktop or rack mount PC 23 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Minimum Hardware (Continued) Chassis and controller considerations (Continued) There are three host PC possibilities for an AXIe chassis - M9536A embedded controller, external laptop PC, or external desktop PC. Select one of the host PC configurations above for your U4164A system If you re using a laptop or desktop PC, see 5990-7632EN for a list of tested computers An M9505A 5-slot chassis is required when using a U4164A three-module set or a U4164A two-module set when used with an M9536A embedded controller as the M9536A is installed in the bottom slot (slot 1) of the chassis Version 6.20 or higher of the logic and protocol analyzer software needs to be installed on the host PC. Refer to the software download site for the latest supported operating systems Cables Up to four U4201A logic analyzer cables may be required per U4164A module depending on probing method. See probing chart for details. Interposers with direct connect cabling, such as the FuturePlus FS2510AB DDR4 DIMM interposer, do not require additional U4201A cables. Typical Configurations M9505A AXIe 5 slot chassis U4164A logic analyzer modules (qty 3) with Option 02G on all modules FS2510AB DDR4 DIMM interposer with direct connect cabling to U4164A M9536A embedded controller Figure 14. Typical configuration for DDR4 DIMM debug and validation for data rates greater 2500 Mb/s. Recommended configuration for DDR4 DIMM solution over 2.5 Gb/s data rates Model Quantity Description U4164A 3 Logic analyzer module, 136 channel, 12.5 GHz TZ, 5 GHz timing, 350 MHz base state speed, 2 Mb U4164A-02G 3 Increase maximum speeds: state to 4 Gb/s (2.5 GHz) and timing to 10 GHz M9505A 1 AXIe 5 slot chassis M9536A 1 AXIe Embedded controller or M9045B or M9048A PCI Express adaptors FS2510AB with FS1070 Note: M9536A controller, if used, must be installed in slot 1. DDR4 DIMM interposer from FuturePlus Systems. Available through Keysight 24 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Typical Configurations (Continued) Figure 15. Typical DDR4 BGA interposer configuration for data rates up to 3.2 Gb/s. DDR4 BGA Interposer Configurations for use with U4164A Quad Sample State Mode DDR4 DRAM type Data width DDR4 signal access x4 x4 Command, x8 x8 Address, Control and Data x16 x16 Command, Address, Control and Data BGA Probe interposer cables (qty) W4643A U4208A (1) U4209A (1) W4641A U4208A (1) U4209A (1) Logic analyzer compatibility U4164A only (with Option -02G) U4164A only (with Option -02G Order summary model/option (qty) U4164A (1) 1 U4164A-02G (1) W4643A U4208A (1) U4209A (1) U4164A (1) 1 U4164A-02G (1) W4641A U4208A (1) U4209A (1) 1. Using dual sample mode for simultaneous read/write data capture. Related Products Model U4301B FS2510 AB FS2512 Description PCIe Gen3 analyzer, base config 5 Gb/s, x1 linkwidth, 8 GB capture buffer FuturePlus DDR4 DIMM Interposer FuturePlus DDR4 SODIMM Interposer 25 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Technical Specifications and Characteristics All specifications refer to the combination of a U4164A logic analyzer module, U4201A logic analyzer probe cable, and any Keysight Soft Touch probe. Probe variations will influence results. State (Synchronous) sampling mode Maximum state data rate Option 02G, 2.5 GHz state mode (spec) Maximum state data rate -01G 1.4 GHz state mode (spec) Maximum state data rate Option -700 Maximum state data rate 350 MHz standard (base) Maximum state clock frequency (typ) 2.5 GHz Option -02G 1.4 GHz Option -01G 700 MHz Option -700 350 MHz standard (base) 2.5 Gb/s on 136 channels per U4164A, using either or both edges of clock (spec) 4 Gb/s on 68 channels per U4164A, clocking on either edge of the clock (typ) 2.5 Gb/s on 136 channels per U4164A, using both edges of clock (spec) 2.8 Gb/s on 68 channels per U4164A, clocking on either edge of the clock (typ) 1.4 Gb/s on 136 channels using both edges of clock (spec) 700 Mb/s on 136 channels using both edges of clock (spec) Minimum state clock frequency 1 (typ) 12.5 MHz (single edge) 6.25 MHz (both edges) Sample position adjustment resolution (typ) 5 ps or 20 ps Sample position adjustment accuracy (typ) ± 150 ps Minimum data valid window (typ) 100 ps Minimum setup time (typ) 50 ps Minimum hold time (typ) 50 ps Minimum eye height (typ) 100 mv Sample position adjustment range (typ) 7 ns Minimum state clock pulse width (typ) 200 ps Number of clocks (nom) 1 Minimum time between active clock edges (typ) 400 ps Maximum time between active clock edges 1 (typ) 80 ns Number of clock qualifiers 4 (pods 2, 3, 4, and 5 on clocking module) Clock qualifier setup time 150 ps Clock qualifier hold time 150 ps Number of RESET clock qualifiers 1 (pod 7 of clocking module) RESET clock qualifier setup time 2 ns RESET clock qualifier hold time 0 ps Time tag resolution (typ) 80 ps Maximum time count between stored states (typ) 66 days 1. Clock can pause for up to 66 days once every 8 or more edges. 26 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Technical Specifications and Characteristics (Continued) Timing (Asynchronous) sampling mode Full-channel mode Half-channel mode Quarter-channel mode Maximum time between transitions (nom) 66 days Minimum data pulse width (typ) 1 sample period + 200 ps Time interval accuracy (typ) ± (1 sample period + 400 ps + 0.01% of time interval reading) Maximum sample rate (nom) 2.5 GHz 5 GHz 10 GHz Minimum sample period (nom) 400 ps 200 ps 100 ps Pod usage (nom) 1 pod from each All pods Odd from each odd/even pod pair Even signal inputs (0, 2, 4, 6, 8) from odd pod of each odd/ even pair plus clock input Timing Zoom (Asynchronous) sampling mode Timing Zoom sampling rate (nom) 12.5 GHz Timing Zoom memory depth (nom) 256 K samples Trigger characteristics Maximum trigger sequence speed (typ) 2500 MHz (400 ps) Option -02G 1400 MHz (714 ps) Option -01G 700 MHz (1.428 ns) Option -700 350 MHz (2.856 ns) standard (base) module Trigger resources (nom) 16 patterns evaluated as =,! =, >, > =, <, < = 8 double-bounded ranges evaluated as in range, not in range 4 to 8 burst detectors 4 edge detectors in timing, 3 in transitional timing 1 occurrence counter persequence level 1 timer 3 flags 1 arm in Trigger resource Boolean conditions (nom) Arbitrary Boolean combinations Trigger actions (nom) Goto Trigger and fill memory Trigger and Goto Trigger, send e-mail, and fill memory Store qualification actions (nom) Default (global) and per sequence level Store/don t store sample Turn on/off default storing Timer actions Start from reset Stop and reset Pause Resume Flag actions Set Clear Pulse set Pulse clear 27 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Technical Specifications and Characteristics (Continued) Trigger characteristics (Continued) Maximum trigger sequence levels (nom) 8 Trigger sequence level branching (nom) Arbitrary 4-way if/then/else Trigger position (nom) Start, center, end, or user-defined Maximum occurrence counter (nom) 999,999,999 Maximum pattern width (nom) 128 bits single label 408 bits AND of multiple labels across three-card set Maximum range width (nom) 64 bits Timer range (nom) 100 ns to 27 hours (in timing modes) 200 * state clock period to 27 hours (in state mode) Timer resolution (nom) 5 ns Timer accuracy (typ) ± (5 ns + 0.01%) (in timing modes) ± (8 * state clock period + 2 ns + 0.01%) (in state mode) Timer reset latency (nom) 40 ns (in timing modes) 80 * state clock period (in state mode) General Number of channels (nom) 136 in one U4164A 272 in two U4164As combined 408 with three U4164A combined Maximum channels on a single time base and trigger (nom) 408 Number of analyzers (nom) 1 Input signal amplitude V amptd (typ) 350 mv Supported signal types Voltage threshold (typ) Minimum threshold resolution (typ) Threshold accuracy (typ) Threshold setting granularity Single-ended and differential 5 to +5 V 4 to +4 V when in dual sample or quad sample state modes 2 mv ± (30 mv + 1% of setting) By channel 28 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Environmental and Physical Operating environment Temperature (nom) 0 to +40 C Humidity (nom) 0 to 80% relative humidity at 40 C Altitude 0 to 3000 m Vibration Random vibration 5 to 500 Hz, 10 minutes per axis, approximately 0.2 g rms Non-operating environment Temperature (nom) 40 to +75 C Humidity (nom) 0 to 90% relative humidity at 65 C Altitude 0 to 15,300 m Vibration (in shipping carton) Random vibration 5 to 500 Hz 10 minutes per axis Approximately 2.41 Swept sine resonant search 5 to 500 Hz 0.50 g (0-peak) 5 minute resonant dwell at 4 resonances per axis Weight 2.34 kg Definitions for specifications Specification (spec): Represents warranted performance of a calibrated instrument that has been stored for a minimum of 2 hours within the operating temperature range of 0 to 40 C, unless otherwise stated, and after a 45 minute warm-up period. The specifications include measurement uncertainty. Data represented in this document are specifications unless otherwise noted. Typical (typ): Represents characteristic performance, which 80% of the instruments manufactured will meet. This data is not warranted, does not include measurement uncertainty, and is valid only at room temperature (approximately 25 C). Nominal (nom): The expected mean or average performance, or an attribute whose performance is by design, such as the 50 Ω connector. This data is not warranted and is measured at room temperature (approximately 25 C). Measured (meas): An attribute measured during the design phase for purposes of communicating expected performance, such as amplitude drift vs. time. This data is not warranted and is measured at room temperature (approximately 25 C). 29 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Ordering Model Description U4164A Logic analyzer module, 136 ch, 12.5 GHz TZ, 5 GHz timing, 350 MHz base state speed, 2 Mb (memory depth in samples) U4164A-A6J ANSI Z540-1-1994 calibration State and timing speed options U4164A-700 Increase maximum state speed to 700 MHz U4164A-01G Increase maximum speeds: state to 2.8 Gb/s (1.4 GHz) and timing to 10 GHz U4164A-02G Increase maximum speeds: state to 4 Gb/s (2.5 GHz) and timing to 10 GHz Memory depth options U4164A-004 Increase acquisition memory depth to 4 Mb U4164A-008 Increase acquisition memory depth to 8 Mb U4164A-016 Increase acquisition memory depth to 16 Mb U4164A-032 Increase acquisition memory depth to 32 Mb U4164A-064 Increase acquisition memory depth to 64 Mb U4164A-128 Increase acquisition memory depth to 128 Mb U4164A-200 Increase acquisition memory depth to 200 Mb U4164A-400 Increase acquisition memory depth to 400 Mb Cables, chassis, and embedded controller U4201A Logic analyzer cable for connecting U4161A to 90-pin E53xx and E54xx Series probes N2815A MSO/logic analyzer cable for connecting U4164A to 90-pin logic analyzer probes. (Connects even and/or odd headers of E53xx and E54xx Series 90-pin probes into odd pod of U4164A pod pair only. Useful for dual-sample state mode, not for full-channel mode) M9502A AXIe 2-slot chassis M9505A AXIe 5-slot chassis Y1223A Multiframe cable M9536A AXIe embedded PC controller M9536A-M16 Memory upgrade from 8 GB to 16 GB RAM Upgrades for U4164A logic analyzer modules (after purchase) U4164A state and timing speed upgrades U4164AU-700 Increase maximum state speed to 700 MHz U4164AU-01G Increase maximum speeds: state to 2.8 Gb/s (1.4 GHz) and timing to 10 GHz U4164AU-02G Increase maximum speeds: state to 4 Gb/s (2.5 GHz) and timing to 10 GHz U4164A memory depth upgrades U4164AU-004 Increase acquisition memory depth to 4 Mb U4164AU-008 Increase acquisition memory depth to 8 Mb U4164AU-016 Increase acquisition memory depth to 16 Mb U4164AU-032 Increase acquisition memory depth to 32 Mb U4164AU-064 Increase acquisition memory depth to 64 Mb U4164AU-128 Increase acquisition memory depth to 128 Mb U4164AU-200 Increase acquisition memory depth to 200 Mb U4164AU-400 Increase acquisition memory depth to 400 Mb 30 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Ordering (Continued) Optional software B4661A Memory analysis software for logic analyzers. Standard features for DDR/LPDDR include default configurations, Setup Assistant, Configuration Creator, and Eye Finder and Eye Scan. Fixed perpetual licenses B4661A-1FP DDR decoder with physical address trigger tool, fixed perpetual license B4661A-2FP LPDDR decoder, fixed perpetual license B4661A-3FP DDR and LPDDR compliance violation analysis, fixed perpetual license B4661A-4FP DDR3/4 and LPDDR2/3/4 performance analysis, fixed perpetual license Transportable perpetual licenses B4661A-1TP DDR decoder with physical address trigger tool, transportable perpetual license B4661A-2TP LPDDR decoder, transportable perpetual license B4661A-3TP DDR and LPDDR compliance violation analysis, transportable perpetual license B4661A-4TP DDR3/4 and LPDDR2/3/4 performance analysis, transportable perpetual license Floating/server perpetual licenses B4661A-1NP DDR decoder with physical address trigger tool, network/floating perpetual license B4661A-2NP LPDDR decoder, network/floating perpetual license B4661A-3NP DDR and LPDDR compliance violation analysis, network/floating perpetual license B4661A-4NP DDR3/4 LPDDR2/3/4 performance analysis, network/floating perpetual license Other software B4601A Data import tool B4601C Signal-to-parallel analysis pacakage B4602A Signal extractor tool B4655A FPGA dynamic probe for Xilinx B4656A FPGA dynamic probe for Altera Probes and interposers Direct connect probes U4203A U4204A U4205A U4206A Single-ended 34-channel flying lead Soft Touch Pro Series single-ended 34-channel data, differential clock connectorless probe Single-ended 34-channel Mictor connector probe 34-channel, Soft Touch Pro, single-ended, quad x 160-pin direct connect 31 datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de

Ordering (Continued) General purpose probes (require U4201A cables) E5405B Pro Series soft touch connectorless probe - differential, for 90-pin cable (17 channels) E5406A Pro Series soft touch connectorless probe - single-ended, for 90-pin cable (34 channels) E5402A Low profile, Pro Series soft touch connectorless probe - single-ended, for 90-pin cable E5390A Soft touch connectorless probe-single-ended, with 90-pin cable connectors E5398A Half-size soft touch connectorless probe with 90-pin cable connectors E5381B Differential flying leads, 17 channels E5382B Single-ended flying leads, 17 channels E5378A Samtec probe-single-ended, with 90-pin cable connectors E5379A Samtec probe-differential, with 90-pin cable connectors E5380B Mictor probe-single-ended, with 90-pin cable connectors DDR4 probes/interposers W4641A Interposer, DDR4 x16 BGA 2-wing single-touch DQ, used with quad-sample mode, requires one U4208A left ZIF probe cable and one U4209A right ZIF probe/cable W4643A Interposer, DDR4 x4/x8 BGA 2-wing single-touch DQ, used with quad-sample mode, requires one U4208A left ZIF probe cable and one U4209A right ZIF probe/cable W4631A Interposers, DDR4 x16 BGA 4-wing double probed DQ, used with dual sample mode and two E5849A ZIF cables or one DDR4 x16 ZIF cable for W4631A W4633A Interposer, DDR4 x4/x8 BGA 3-wing double probed DQ, used with dual sample mode and two E5849A ZIF cables W4636A Interposer, 96 ball BGA, DDR4 x16 2-wing command and reduced data for LA E5849A Cable, high data rate ZIF for use with W4631A and W4633A DDR4 double probed DQ BGA interposers FuturePlus FS2510AB DDR4 3300 DIMM interposer (optional FS1070 conversion kit for FS2510 for data rates over 2.5 Gb/s) FuturePlus FS2512 DDR4 1867 SODIMM interposer DDR3 probes/interposers W3631A DDR3 x16 BGA stacked DRAM under 2 G deep command and data probe for logic analyzer and scope W3633A DDR3 x4/x8 BGA command and data probe for logic analyzer and scope W3636A DDR3 x16 BGA single die command and data probe for logic analyzer and scope (covers > 2 G), for non-stacked DRAM E5847A 46-ch single-ended ZIF probe for DDR3 x4/x8 DRAM BGA probe connection to 90-pin logic analyzer cable E5845A 46-ch single-ended ZIF probe for DDR3 x16 DRAM BGA probe connection to 90-pin logic analyzer cable FuturePlus FS2352B DDR3 2133 DIMM interposer FuturePlus FS2354 DDR3 1600 SODIMM interposer DDR2 probes/interposers W2631B DDR2 x16 BGA ADD/CMD/DATA probe for logic analyzers and scopes W2633B DDR2 x4/x8 BGA ADD/CMD/DATA probe for logic analyzers and scopes Warranty and Calibration Advantage services: calibration and warranty Keysight Advantage Services is committed to your success throughout your equipment s lifetime. Calibration Description Select Keysight calibration plan R1282A R-50C-011-3 3-year calibration assurance plan (return to Keysight): Priority calibration service covering all calibration costs for 3 years; 15% cheaper than buying stand-alone calibrations. R1282A R-50C-011-5 5-year calibration assurance plan (return to Keysight): Priority calibration service covering all calibration costs for 5 years; 20% cheaper than buying stand-alone calibrations. R1282A R-50C-021-3 ANSI Z540-1-1994 calibration 3 years R1282A R-50C-021-5 ANSI Z540-1-1994 calibration 5 years Warranty Description Select coverage R1280A included 3-year warranty (return to Keysight), standard R1280A R-51B-001-5Z 5-year warranty assurance plan (return to Keysight): Priority warranty service includes one-time coverage for an EOS/ESD failure. Änderungen und Irrtümer vorbehalten. datatec 19-08-2017 Keysight Technologies: February 15, 2016 5992-1057EN datatec Ferdinand-Lassalle-Str. 52 72770 Reutlingen Tel. +49 7121 / 51 50 50 Fax +49 7121 / 51 50 10 info@datatec.de www.datatec.de